CN219301979U - Auxiliary rotating bracket for rock core cutting angle - Google Patents

Abstract

The utility model discloses an auxiliary rotating bracket for a core linear cutting angle, which comprises a barrel, wherein a sliding door is arranged on the upper wall surface of the barrel and hinged with the upper wall surface of the barrel, a water inlet and a water outlet are respectively formed in the upper wall surface and the side wall surface of the barrel, an annular electric sliding rail and two pairs of supporting moving devices are respectively arranged on the side wall surface of the barrel, a telescopic rotating holding device is arranged at the moving end of the annular electric sliding rail, a second cylinder in the telescopic barrel is started, so that the telescopic end of the second cylinder stretches to drive a first sleeve and the first barrel of the telescopic barrel to stretch, the telescopic barrel can move in multiple positions through universal wheels, and after the telescopic barrel moves to a place needing to be operated, the second cylinder is started again, so that the first barrel and the universal wheels are contained in the first sleeve, and the barrel is fixed, and the problem that the telescopic barrel is inconvenient to move when no moving equipment exists is solved.

Description

Auxiliary rotating bracket for rock core cutting angle

Technical Field

The utility model relates to the technical field of petroleum geology research, in particular to an auxiliary rotating bracket for a core linear cutting angle.

Background

The rock core and the like are main targets for petroleum geology research, and a series of experimental analysis is carried out on the rock core to obtain direct experimental parameters and develop scheme programming. When water cutting is selected, the core sample wire-electrode cutting device can be connected with a cylinder body through a water cutting tool and is held by a clamp, a columnar sample with the diameter of 2.54 cm or 3.8cm can be obtained after water cutting, various core wire-electrode cutting angle auxiliary rotating supports exist in the prior art, and the core sample wire-electrode cutting device comprises a centralizing clamp, wherein the centralizing clamp comprises: the guide rail sample table is provided with a sample pool, a first dovetail groove, a second dovetail groove and a cutting slot.

1. The device is not provided with a moving device, and when the device is required to be used at different positions in the using process, the device has the problem of inconvenient movement because of large volume and the device needs to be moved by an external moving device, so the device has the problem of inconvenient movement when the device is not used.

2. Such a device is not provided with a clamp device, and when multi-angle movement clamping is required, such a device can perform multi-angle clamping operation only by means of an external device, so that such a device has a problem that the multi-angle clamping operation is inconvenient.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the auxiliary rotating bracket for the core wire cutting angle, which solves the technical problems that the existing device 1 is not provided with a moving device, and when the device is required to be used at different positions in the use process, the device is inconvenient to move due to large volume and needs to be moved by means of external moving equipment, so the device is inconvenient to move when no moving equipment exists. 2. The device is not provided with a clamp device, and when the clamping device needs to be moved and held at multiple angles, the device can only carry out the multi-angle clamping operation by means of external equipment, so that the device has the technical problem of inconvenient multi-angle clamping operation.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the auxiliary rotating bracket for the rock core cutting angle comprises a barrel, wherein a sliding door is arranged on the upper wall surface of the barrel and hinged with the upper wall surface of the barrel, a water inlet and a water outlet are respectively formed in the upper wall surface and the side wall surface of the barrel, an annular electric sliding rail and two pairs of supporting and moving devices are respectively arranged on the side wall surface of the barrel, and a telescopic rotating clamping device is arranged at the moving end of the annular electric sliding rail.

Preferably, the supporting and moving device comprises a telescopic cylinder, a universal wheel and a second air cylinder, wherein the telescopic cylinder is divided into a first sleeve and a first cylinder body, the first sleeve is sleeved on the outer wall surface of the first cylinder body, the second air cylinder is arranged on the upper wall surface of the inner part of the first sleeve, the telescopic end of the second air cylinder is arranged on the upper wall surface of the first cylinder body, and the universal wheel is arranged on the lower wall surface of the first cylinder body.

Preferably, the telescopic rotary clamping device comprises a telescopic rotary mechanism, a clamp rotary mechanism and a clamp mechanism, wherein the telescopic rotary mechanism comprises an electric hydraulic cylinder, a first motor box, a box body, an electric sliding rail, a first fixing block, a second fixing block and a first motor, the first motor is installed inside the first motor box, the electric hydraulic cylinder is installed on the moving end of the annular electric sliding rail, the first motor box is installed on the side wall surface of the telescopic end of the electric hydraulic cylinder, the box body is installed on the side wall surface of the driving end of the first motor, the electric sliding rail is installed on the upper wall surface of the box body, the first fixing block and the second fixing block are installed on the upper wall surface of the box body and the moving end of the electric sliding rail respectively, and the clamp rotary mechanism is installed between the first fixing block and the second fixing block.

Preferably, the fixture rotating mechanism comprises a first cylinder, a second motor case, a second cylinder, a third motor case, a second motor, a bearing and a third motor, wherein the first cylinder is installed between the second fixed block and the first fixed block, one ends of the second cylinder and the first cylinder are respectively convex and concave, the convex end of the second cylinder is inserted into the concave end of the first cylinder, the second motor case is installed on the side wall surface of the first cylinder, the first cylinder is installed inside the second motor case, the bearing is sleeved on the driving end of the second motor and is inserted on the side wall surface of the concave end of the first cylinder, the driving end of the second motor is fixedly inserted on the convex end of the second cylinder, the third motor case is installed on the upper wall surface of the second cylinder, and the third motor is installed inside the third motor case and the home mechanism is installed on the upper wall surface of the driving end of the third motor.

Preferably, the fixture mechanism comprises a clamping plate, a connecting rod, a first air cylinder and a fixture box, wherein the fixture box is arranged on the upper wall surface of the driving end of the third motor, the first air cylinder is arranged on the lower wall surface of the inner part of the fixture box, the driving end of the first air cylinder is T-shaped, a pair of connecting rods are respectively hinged with the T-shaped driving end of the first air cylinder and a pair of clamping plates, and the bending ends of the clamping plates are respectively hinged with the opening ends of the fixture box.

Advantageous effects

The utility model provides an auxiliary rotating bracket for a core linear cutting angle, which is characterized in that when a plurality of positions are required to move in the using process, a second cylinder in a telescopic cylinder is started, so that a first sleeve and a first cylinder of the telescopic cylinder are driven to stretch through the stretch-draw of a stretch-draw end of the second cylinder, and universal wheels are stretched to support the cylinder, so that the cylinder can be moved in a plurality of positions through the universal wheels, and when the auxiliary rotating bracket is moved to a place requiring operation, the second cylinder is started again, so that the first cylinder and the universal wheels are accommodated in the first sleeve, and the cylinder is fixed, so that the problem that the equipment is inconvenient to move when no mobile equipment exists is solved.

The utility model provides an auxiliary rotating bracket for a core wire cutting angle, when different cutting tools are selected in the using process, the water cutting tools are connected with a cylinder body when water cutting is selected, water is injected into the cylinder body through a water inlet, so that hydraulic resources are provided for water cutting, at the moment, a cutting European head is clamped through a clamp, at the moment, a first cylinder in a clamp box is started, a pair of connecting rods are driven to drive a pair of clamping plates to carry out clamping operation through the expansion and contraction of the first cylinder, the cutting tools are clamped through the clamping plates, when the different angles are required to carry out operation, an annular electric sliding rail is started, an electric hydraulic cylinder is driven to carry out multi-position movement through the moving end of the annular electric sliding rail, when the electric hydraulic cylinder is moved to a position required to be used, thereby driving the first motor box to move through the expansion and contraction of the expansion end of the electric hydraulic cylinder, at the moment, starting the first motor inside the first motor box, thereby driving the box to rotate through the rotation of the first motor driving end, at the moment, starting the electric sliding rail, thereby driving the first fixed block to move through the movement of the electric sliding rail moving end, thereby completing the clamping of the first fixed block and the second fixed block to the first column body, at the moment, starting the second motor inside the second motor box, thereby driving the second column body to rotate on the first column body through the rotation of the second motor driving end, at the moment, starting the third motor inside the third motor box, thereby driving the clamp to rotate through the rotation of the third motor driving end, thereby completing the movement of multiple angles, thus solving the problem that the device is inconvenient for multi-angle clamping operation.

Drawings

Fig. 1 is a schematic structural diagram of a front view of an auxiliary rotary support for a core wire cutting angle according to the present utility model.

Fig. 2 is a schematic diagram of a second motor structure of the auxiliary rotating support for the core wire cutting angle.

Fig. 3 is a schematic diagram of a first motor structure of the auxiliary rotary support for the core linear cutting angle.

Fig. 4 is a schematic diagram of a fixture structure of the auxiliary rotary support for the core wire cutting angle.

Fig. 5 is a schematic diagram of a second cylinder structure of the auxiliary rotary support for the core linear cutting angle.

In the figure: 1-a cylinder; 2-sliding door; 3-a water inlet; 4-a water outlet; 5-annular electric sliding rails; 6-a telescopic cylinder; 7-universal wheels; 8-an electro-hydraulic cylinder; 9-a first motor case; 10-a box body; 11-an electric slide rail; 12-a first fixed block; 13-a second fixed block; 14-a first column; 15-a second motor case; 16-a second column; 17-a third motor case; 18-a clamp box; 19-clamping plates; 20-connecting rods; 21-a first cylinder; 22-a third motor; 23-a second cylinder; 24-a second motor; 25-bearings; 26-a first motor.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides a rock core cutting angle auxiliary rotating support, includes barrel 1, barrel 1 upper wall installs sliding door 2 and barrel 1 upper wall articulated mutually, water inlet 3 and delivery port 4 have been seted up respectively to barrel 1 upper wall and lateral wall, annular electronic slide rail 5 and two pairs of support mobile device are installed respectively to barrel 1 lateral wall, annular electronic slide rail 5 removes the end and installs flexible rotatory clamping device, and installation support mobile device can remove the barrel through removing the universal wheel when needs remove the barrel.

Further, the supporting and moving device comprises a telescopic cylinder 6, a universal wheel 7 and a second air cylinder 23, wherein the telescopic cylinder 6 is divided into a first sleeve and a first cylinder body, the first sleeve is sleeved on the outer wall surface of the first cylinder body, the second air cylinder 23 is installed on the upper wall surface of the inner part of the first sleeve, the telescopic end of the second air cylinder 23 is installed on the upper wall surface of the first cylinder body, the universal wheel 7 is installed on the lower wall surface of the first cylinder body, and the installation supporting and moving device can move the cylinder body through moving the universal wheel when the cylinder body needs to be moved.

Further, the telescopic rotary clamping device is divided into a telescopic rotary mechanism, a clamp rotary mechanism and a clamp mechanism, the telescopic rotary mechanism comprises an electric hydraulic cylinder 8, a first motor box 9, a box 10, an electric sliding rail 11, a first fixed block 12, a second fixed block 13 and a first motor 26, the first motor 26 is installed inside the first motor box 9, the electric hydraulic cylinder 8 is installed on the moving end of the annular electric sliding rail 5, the first motor box 9 is installed on the side wall surface of the telescopic end of the electric hydraulic cylinder 8, the box 10 is installed on the side wall surface of the driving end of the first motor 26, the electric sliding rail 11 is installed on the upper wall surface of the box 10, the first fixed block 12 and the second fixed block 13 are respectively installed on the upper wall surface of the box 10 and the moving end of the electric sliding rail 11, the clamp rotary mechanism is installed between the first fixed block 12 and the second fixed block 13, and the telescopic rotary mechanism is installed to enable the clamp to be adjusted in a telescopic mode through the electric hydraulic cylinder.

Further, the fixture rotating mechanism comprises a first column 14, a second motor case 15, a second column 16, a third motor case 17, a second motor 24, a bearing 25 and a third motor 22, wherein the first column 14 is installed between the second fixed block 13 and the first fixed block 12, one ends of the second column 16 and the first column 14 are respectively in a convex shape and a concave shape, the convex end of the second column 16 is inserted into the concave end of the first column 14, the second motor case 15 is installed on the side wall surface of the first column 14, the first column 14 is installed in the second motor case 15, the bearing 25 is sleeved on the driving end of the second motor 24 and is inserted into the side wall surface of the concave end of the first column 14, the driving end of the second motor 24 is fixedly inserted into the convex end of the second column 16, the third motor case 17 is installed on the upper wall surface of the second column 16, the third motor 22 is installed in the interior of the third motor case 17, the household mechanism is installed on the upper wall surface of the driving end of the third motor 22, and the fixture rotating mechanism can rotate the fixture through multiple angles.

Further, the clamp mechanism comprises a clamping plate 19, a connecting rod 20, a first air cylinder 21 and a clamp box 18, the clamp box 18 is arranged on the upper wall surface of the driving end of the third motor 22, the first air cylinder 21 is arranged on the lower wall surface of the inner part of the clamp box 18, the driving end of the first air cylinder 21 is in a T shape, a pair of connecting rods 20 are respectively hinged with the T-shaped driving end of the first air cylinder 21 and a pair of clamping plates 19, the bending ends of the clamping plates 19 are respectively hinged with the opening end of the clamp box 18, and the clamp mechanism can be used for clamping a cutting machine to be clamped through a clamp.

The detailed connection means are known in the art, and the following mainly describes the working principle and process, and the specific work is as follows.

Examples: the second cylinder 23 in the telescopic cylinder 6 is started, the first sleeve and the first cylinder of the telescopic cylinder 6 are driven to stretch through the stretch of the stretch end of the second cylinder 23, the universal wheel 7 is stretched to support the cylinder 1, the universal wheel 7 can move in multiple positions, after moving to a place needing to be operated, the second cylinder 23 is started again, the first cylinder and the universal wheel 7 are contained in the first sleeve, the cylinder 1 is fixed, a water cutting tool is connected with the cylinder 1 at the moment, water is injected into the cylinder 1 through the water inlet 3, hydraulic resources are provided for water cutting, the cutting One head is clamped through a clamp at the moment, the first cylinder 21 in the clamp box 18 is started at the moment, the connecting rod 20 is driven to drive the pair of clamping plates 19 to carry out clamping operation through the stretch of the first cylinder 21, thereby clamping the cutting tool through the clamping plate 19, when the cutting tool is required to be operated at different angles, starting the annular electric sliding rail 5, driving the electric hydraulic cylinder 8 to move at multiple positions through the moving end of the annular electric sliding rail 5, when the cutting tool is moved to the position required to be used, starting the electric hydraulic cylinder 8, driving the first motor box 9 to move through the expansion and contraction of the expansion end of the electric hydraulic cylinder 8, starting the first motor 26 in the first motor box 9 at the moment, driving the box 10 to rotate through the rotation of the driving end of the first motor 26, starting the electric sliding rail 11 at the moment, driving the first fixed block 12 to move through the movement of the moving end of the electric sliding rail 11, thereby completing the clamping of the first cylinder 14 by the first fixed block 12 and the second fixed block 13, starting the second motor 24 in the second motor box 15 at the moment, thereby drive the second cylinder 16 through the rotation of second motor 24 drive end and rotate on first cylinder 14, thereby start the inside third motor 22 of third motor case 17 thereby drive anchor clamps through the rotation of third motor 22 drive end and rotate this moment to accomplish the removal of multi-angle, when need carrying out the cylinder change, can accomplish the change of cylinder through the removal of electronic slide rail 11.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

Claims (5)

1. The utility model provides a rock core cutting angle auxiliary rotating support, includes barrel (1), its characterized in that, barrel (1) upper wall installs sliding door (2) and barrel (1) upper wall articulated mutually, water inlet (3) and delivery port (4) have been seted up respectively to barrel (1) upper wall and lateral wall, annular electronic slide rail (5) and two pairs of support mobile device are installed respectively to barrel (1) lateral wall, flexible rotatory clamping device is installed to annular electronic slide rail (5) mobile terminal.

2. The core wire-cutting angle auxiliary rotating support according to claim 1, wherein the supporting and moving device comprises a telescopic cylinder (6), a universal wheel (7) and a second air cylinder (23), the telescopic cylinder (6) is divided into a first sleeve and a first cylinder body, the first sleeve is sleeved on the outer wall surface of the first cylinder body, the second air cylinder (23) is mounted on the inner upper wall surface of the first sleeve, the telescopic end of the second air cylinder (23) is mounted on the upper wall surface of the first cylinder body, and the universal wheel (7) is mounted on the lower wall surface of the first cylinder body.

3. The core wire-electrode cutting angle auxiliary rotating support according to claim 1, wherein the telescopic rotating clamping device is divided into a telescopic rotating mechanism, a clamp rotating mechanism and a clamp mechanism, the telescopic rotating mechanism comprises an electric hydraulic cylinder (8), a first motor box (9), a box body (10), an electric sliding rail (11), a first fixing block (12), a second fixing block (13) and a first motor (26), the first motor (26) is installed inside the first motor box (9), the electric hydraulic cylinder (8) is installed on the moving end of the annular electric sliding rail (5), the first motor box (9) is installed on the side wall surface of the telescopic end of the electric hydraulic cylinder (8), the box body (10) is installed on the side wall surface of the driving end of the first motor (26), the electric sliding rail (11) is installed on the upper wall surface of the box body (10), the first fixing block (12) and the second fixing block (13) are installed on the upper wall surface of the box body (10) and the moving end of the electric sliding rail (11), and the first rotating mechanism (13) is installed between the first fixing block and the second fixing block (13).

4. The auxiliary rotating support for the core wire cutting angle according to claim 3, wherein the clamp rotating mechanism comprises a first cylinder (14), a second motor box (15), a second cylinder (16), a third motor box (17), a second motor (24), a bearing (25) and a third motor (22), wherein the first cylinder (14) is installed between a second fixed block (13) and the first fixed block (12), one ends of the second cylinder (16) and the first cylinder (14) are respectively in a convex shape and a concave shape, the convex end of the second cylinder (16) is inserted into the concave end of the first cylinder (14), the second motor box (15) is installed on the side wall surface of the first cylinder (14), the first cylinder (14) is installed in the second motor box (15), the bearing (25) is sleeved on the driving end of the second motor (24) and is inserted into the concave end side wall surface of the first cylinder (14), the driving end of the second motor (24) is fixedly inserted into the convex end of the second cylinder (16), and the third motor (17) is installed on the side wall surface of the third motor box (17) and the third motor box (22) is installed on the side wall surface of the third motor box (17).

5. The auxiliary rotating support for the wire-electrode cutting angle of the core according to claim 4, wherein the clamp mechanism comprises a clamping plate (19), a connecting rod (20), a first air cylinder (21) and a clamp box (18), the clamp box (18) is installed on the upper wall surface of the driving end of the third motor (22), the first air cylinder (21) is installed on the lower wall surface of the inner part of the clamp box (18), the driving end of the first air cylinder (21) is T-shaped, a pair of connecting rods (20) are hinged with the T-shaped driving end of the first air cylinder (21) and a pair of clamping plates (19) respectively, and the bending ends of the clamping plates (19) are hinged with the opening ends of the clamp box (18) respectively.

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